Russian Air Force

A Russian Il-20M reconnaissance aircraft disappeared from radar screens late in the evening on September 17. All 14 crew members are presumed lost, and some reports indicate that remnants of the aircraft have been located by a Russian navy auxiliary ship that was in the area. Initially, the Russian Ministry of Defense blamed a nearby French frigate, accusing it of firing rockets at the aircraft. Subsequently, the ministry accepted that the aircraft was downed as a result of friendly fire by Syrian S-200 air defenses. At the same time, the Russian MOD transferred blame to the Israeli Air Force, which was conducting air strikes against Syrian military facilities in the Latakia area at the time of the incident. Supposedly, four Israeli F-16 strike aircraft were using the Il-20 as cover while conducting strikes on Syria from international airspace. The whole operation can be seen in the map below provided by the MOD in its official briefing on the incident.

While the Russian government’s reaction included a strongly worded condemnation of the Israeli Air Force for its role in the incident, the reality is that the Israeli aircraft would not have had the ability or need to use a large, slow Russian turboprop aircraft as cover. They carried out their strikes and almost certainly had departed the area before the Syrian forces had realized they were under attack and activated their air defense systems. The Syrian military has a history of launching air defense missiles late, after incurring damage from hostile forces. The same tactic was used in response to NATO missile strikes on suspected Syrian chemical weapons facilities in April 2018. One suspects that this is done so that Syrian military officials can report to their leaders that they “did something” in response. In April 2018, the response allowed Syrian and Russian officials to make false claims that the air defenses had neutralized a large number of NATO cruise missiles. Whereas the response in that case was in reality completely ineffective, in this case, unfortunately, the late response resulted in an unintended casualty of an allied aircraft.

The political consequences of this incident are likely to be limited. Both Israel and Russia are keen to limit the damage to what has in recent years become a relatively comfortable relationship. The Israeli military not only expressed condolences for the loss of life, but took the almost unprecedented step of publicly discussing an Israeli military operation. The statement noted that Israeli aircraft had already left the scene by the time the Syrian missiles were launched, thus confirming that the Israeli attack on Syria took place. At the same time, it firmly assigned blame to the Syrian forces that launched the missiles, thus rejected any claims of Israeli responsibility for the incident.

Furthermore, the Israeli prime minister highlighted the importance of Russian-Israeli security coordination while confirming Israel’s intent “to prevent Iranian military entrenchment in Syria and Iranian attempts to transfer to Hezbollah lethal weapons against Israel.” He also offered to send the commander of the Israeli air force to Moscow to provide to Russian officials all information Israel has collected on the incident. On the Russian side, President Putin warned against making any facile comparisons to the shooting down of a Russian plane by Turkish forces in 2015, since this time the plane was shot down by Syrian forces. He called the incident “a chain of tragic accidental circumstances” and noted that the result will be additional security measures for Russian military personnel based in Syria. In short, initial calls in the State Duma for a tough response against Israel will vanish quickly and once the condolence calls on the part of Russian officials to the families of those who lost their lives are completed the entire incident will be forgotten in short order.

The last month or so has seen a number of good overviews in the Russian press of recent procurement and future plans of the Russian Air Force. The Russian Air Force has been substantially modernized and upgraded as part of the current State Armament Program (SAP-2020). The table below summarizes procurement in tactical aviation over the last ten years, as compiled by Moscow’s CAST think tank.

Type

earlier

2012

2013

2014

2015

2016

2017

Total

Contracted

Su-34

15

10

14

18

18

16

16

107

129

Su-35S

—

2

8

24

12

12

10

68

98

Su-27 SM3

12

—

—

—

—

—

—

12

12

Su-30 SM

—

2

14

21

27

19

17

100

116

Su-30 M2

4

—

3

8

3

2

—

20

20

MiG-29 SMT /UBT

28/6

—

—

—

3/2

11/0

—

42/8

50

MiG-29 KR /KUBR

—

—

2/2

8/2

10/0

—

—

24

24

Yak-130

12

15

18

20

14

10

6

95

109

Total

77

29

61

101

89

70

49

476

560

Much of this procurement reflects the need to replace aging Soviet aircraft with new airframes with modern electronics and weapon systems. Nevertheless, many Soviet-era airframes remain in service. These include approximately 100 Su-27 and Su-27SM and approximately 150-170 MiG-29S fighter aircraft, approximately 150 MiG-31 interceptors, and over 200 each of the Su-24 bomber and Su-25 strike aircraft.

Most of these aircraft are expected to be either replaced or modernized over the next 10 years. According to Ilya Kramnik, who recently published a comprehensive summary of Russian aircraft procurement plans, the Russian Air Force is planning to have at least 700 fighter aircraft in active service. The bulk of these (around 450) will be designed by Sukhoi. These will include 66 additional Su-30SM aircraft, with 16 of these to be delivered in 2018 based on an existing contract signed in 2012 and the other 50 by 2022 based on a new contract to be signed in the near future. These aircraft are being built at the Irkutsk aircraft plant. This will bring the total number of Su-30SM and Su-30M2 aircraft to at least 186 by 2027, with approximately 50 of these in naval aviation.

In addition, approximately 130 Su-35S aircraft are to be delivered over the next 10 years, with 30 still remaining on an existing contract from 2015 and another 100 expected to be procured on a new contract to be signed as part of SAP-2027. When added to the 68 aircraft already delivered, the Russian air force should expect to have approximately 200 Su-35S fighters by 2027. The new fifth generation Su-57 fighter aircraft will be procured in limited numbers, with reports indicating that 12 aircraft will be delivered by 2021 and around 50 more by 2027. Delays in deliveries of these planes may be covered by an increase in purchases of Su-35s and perhaps Su-30s.

There is still a lot of uncertainty about the extent to which the Russian Air Force will procure the new MiG-35 multi-role fighter jet. Some sources have stated that 170 MiG-35 aircraft will be purchased over the next 10 years, while Kramnik quotes unnamed experts who believe that the number purchased will be limited to 70-80 units. I expect the lower number to be closer to reality, given the general lack of enthusiasm in the Russian MOD for the MiG-35. In the meantime, the air force is continuing to modernize its existing fleet of Soviet era MiG-31 aircraft, with as many as 150 of the 250 units in inventory expected to be modernized by 2027. Of these, around 30 will remain assigned to naval aviation. The 50 MiG-29SMT and UBT variants procured between 2009 and 2016 will also remain in the force, while older MiG-29 versions are likely to be phased out over the next ten years.

Carrier-based naval aviation will consist of the 17 remaining older Su-33 fighter planes, currently undergoing an expensive modernization, together with 23 MiG-29KR aircraft delivered in the last few years.

Strike aviation will consist of modernized versions of the Soviet-era Su-25, with a total of 120-140 aircraft to be converted to carry precision-guided munitions. The venerable Su-24 bombers, on the other hand, will be entirely replaced by the new Su-34s, which performed quite well in Syria in recent years. In addition to the 114 Su-34s already in service, Kramnik expects the Russian military to sign a contract in the next two years to purchase an additional 90-100 aircraft, with perhaps additional units earmarked for naval aviation to replace its current stock of Su-24s.

Prospects for long range aviation are relatively clear, with serial production of a modernized version of the Tu-160 expected to start in 2021. While exact numbers of aircraft to be procured have not been revealed, some early estimates suggested that as many as 50 new Tu-160s will be procured over the next decade. In the meantime, existing Tu-95 and Tu-160 aircraft are in the process of receiving new engines, avionics, and weapon systems.

Transport aviation is in much worse shape than combat aviation, with relatively few new aircraft procured in the last ten years. The Il-76MD is expected to remain the heavy transport workhorse of the Russian Air Force. These aircraft were built in the 1980s and were relatively underused in the post-Soviet period, so that they could serve another 15-20 years in their present form. In 2013, the MOD ordered 39 aircraft of a modernized Il-76MD-90A variant, although only five have been delivered through the end of 2017, including two units that will be developed into the A-100 AWACS aircraft. According to Vladimir Moiseev, the main need for modernized aircraft is as a platform for the A-100 and for the Il-78 refueling aircraft, rather than for new heavy transport aircraft themselves. Moiseev notes that given the issues with organizing timely production of the modernized Il-76, development of a next next generation heavy transport aircraft has been put off into the distant future.

Meanwhile, the Russian Air Force desperately needs a new medium transport aircraft, since the remaining 60 or so An-12 aircraft were built in the 1960s and early 1970s and are rapidly approaching the end of their service lives. The various projects to build a new multi-role transport aircraft that have been under discussion for more than 15 years have been united only by their continued failure to produce an aircraft. The current plan is to have a design finalized this year and test flights to start in 2023. Given that most An-12s will have to be retired by 2024, this gives little margin for error and in fact almost guarantees that the Russian Air Force will either face a gap of at least a few years without a medium transport aircraft or (more likely) will have to do what it can to keep as many An-12s as possible airworthy for as long as it can.

The situation with light transport aircraft is a little better. Although the 40 existing An-26 aircraft will also have to be retired soon, the design of the new Il-112 replacement aircraft is relatively far along, with initial test flights expected in late 2018 and serial production possibly ready to start no later than the early 2020s.

Finally, the Il-114 is expected to become the main platform for special aviation, including variants for maritime patrol (to replace the Il-38), electronic warfare, AWACS, and reconnaisance. About 50 aircraft of this type are expected to be produced for the Russian military over the next ten years.

Based on this overview, we can make a rough estimate of what the Russian Air Force and naval aviation will look like in 2027. I am excluding the various types of specialized aircraft, such as AWACS, tankers, maritime patrol, etc, from this table, just to keep it manageable. The table includes aircraft in both the air force and in naval aviation.

Type

Category

Number

Su-25

Strike

120-140

Su-27

Fighter

60-70

Su-30

Fighter

190-200

Su-33

Carrier-based fighter

17

Su-34

Bomber

210-230

Su-35

Fighter

200

Su-57

Fighter

50-60

MiG-29

Fighter

60-80

MiG-31

Interceptor

150

MiG-35

Fighter

70-80

Total Tactical

1100-1200

Yak-130

Trainer

110-130

Yak-152

Trainer

150

Total Trainers

260-280

Tu-22

Bomber

69

Tu-95

Bomber

60

Tu-160

Bomber

66

Total Long Range Aviation

190-200

Il-76

Heavy transport

100-150

An-12

Medium transport

30-60

Il-112

Light transport

40-50

Other types (mostly Antonov)

Transport

40-50

Total Transport

210-300

As can be seen from this overview, Russian military aviation is set to build on its core strengths in combat aviation while improving its strike and long range bomber capabilities. Transport will remain a weakness, with little progress being made over the next decade to address continuing problems in that sphere that have only been exacerbated by the end of defense cooperation with Ukraine and its Antonov design bureau.

Overall, Russian aircraft procurement has followed the path of buying more of what Russian defense industry is good at producing, rather than basing procurement on a programmatic assessment of Russian defense needs. In addition, the MOD has to some extent succumed to pressure to support defense industry and will be procuring aircraft such as the MiG-35 that it is not particularly excited about. As a result, the air force will be faced with a proliferation of combat aircraft types, with the attendant higher maintenance and training costs. In the meantime, the long-term weakness in transport aviation will persist, limiting the improvements in military mobility that have been one of the core aspects of military reform efforts over the last decade.

Recently, Michael Kofman and I published an article arguing that Russia’s claimed withdrawal from Syria is not really a withdrawal, but rather a public relations move to normalize Russian military presence in Syria for the long term. Events over the last 10 days have confirmed our analysis and also provided more details on the air forces that Russia is continuing to maintain in Syria. A photo made by the French Centre National d’Etudes Spatiales and distributed via IHS Jane’s shows that as of March 20, there were still 12 Su-24M bombers at Hmeymim, as well as four Su-34 bombers, three Su-30SM fighters and three Su-35S fighters. Zero to three additional aircraft may have been out conducting airstrikes, for a total of 22-25 remaining Russian fixed-wing strike aircraft in Syria. There were also 14 helicopters, including two Mi-28Ns and two Ka-52s.

This means that in the first week after the withdrawal was announced, Russia pulled out three Su-24Ms, four SU-34s, all 12 Su-25s, and four Mi-35M helicopters, while adding at least two Mi-28N and two Ka-52 helicopters. The photo also shows IAI Searcher Mk2 Forpost UAVs.

In other words, the current size of the Russian air presence at Hmeymim is comparable to what Russia had at the start of the operation, minus the Su-25s, but with the addition of Su-35s.

Although relatively small in scale, Russia’s military operation in Syria has highlighted some major improvements in Russian military capabilities.

Beyond its purely geopolitical goals, Russia’s operation in Syria has been designed to test improvements in Russian military capabilities that have resulted from the military reform carried out over the last seven years and to highlight these improvements to potential adversaries. While the jury is still out on how successful the operation will be in helping the Syrian government turn the tide against its various opponents, it has already shown that the military reform has resulted in a significant increase in Russia’s warfighting capability.

Compared to the 2008 Georgia War, which was the last time the Russian Air Force operated in a combat environment, the Russian military appears to have made great strides in increasing operational tempo and improving inter-service integration. It has also made significant advances in its ability to carry out expeditionary operations and showcased its recently developed stand-off strike capability.

….

Originally published by the Lowy Institute Interpreter. Click here to read the rest of the article.

In June 2015, I published a short article in the Oxford Analytica Daily Brief discussing the capabilities of new Russian aircraft. Here’s the text, as usual with no edits other than restoring some cuts made for space reasons.

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SUBJECT:The Russian T-50 fighter and PAK DA bomber.

SIGNIFICANCE:In early June, a series of high profile crashes involving Russian military planes led to Moscow grounding the Tu-95 ‘Bear’ bomber fleet. Additionally, on June 4, a Su-34 strike fighter crashed near Voronezh and a MiG-29 crashed near the Caspian. Military leadership is hoping that the air force’s reliance on old systems will be solved by two new programmes: the Sukhoi T-50 PAK FA and the PAK–DA bomber.

ANALYSIS:Impacts

Russia will continue high frequency of air activity over Baltic and North Sea regions.

Increasing numbers of European air forces will look to procure fifth-generation fighters to maintain approximate parity with Russia.

Shortage of refueling planes will be a concern for the Russian air force and may prove to be an Achilles’ heal.

One of the primary targets of the air force is a stealth fighter, in order to to maintain parity with the United States, a role which is sought for the T-50.

PAK FA T-50

The Russian Air Force has been developing a fifth-generation fighter aircraft since the late 1980s. The PAK FA T-50, has been under development at Sukhoi for about 15 years. The first flight of a prototype aircraft took place in January 2010. A total of five prototype aircraft have been delivered over the last five years. It is expected that the jet will enter service in 2016.

Stealth abilities

This aircraft will be the first operational stealth aircraft operated by Russia. It is expected to be built at least in part out of composite materials, highly manoeuvrable, with supercruise capability and advanced avionics. It will initially use a variant of the Saturn 117 engine currently installed on the Su-35S. A new engine, Product 30, is to be ready for production no earlier than 2017 and will become the standard engine in the 2020s. This engine is supposed to provide 17-18% more thrust, improved fuel efficiency, and higher reliability than the existing engine.

While recently constructed prototypes have been equipped with advanced avionics, reports indicate that the T-50’s electronic components are likely to be upgraded further before serial production begins. The need for continued work on avionic equipment and engines means that the initial production run of the aircraft will retain fourth-generation characteristics and will be comparable to earlier US F-16/18s. The Russian air force will therefore not have a complete fifth-generation fighter until 2020 at the earliest.

F-22 and F-35 comparison

Russia generally compares the T-50 to the F-22, rather than to the F-35. The T-50 has cruising (Mach 1.7) and top (Mach 2.5) speeds that are comparable to the F-22, though it is designed to be significantly faster than the F-35, which has been tested to a top speed of Mach 1.6. The maximum range without refueling is also comparable to the F-22, at 2,000 kilometres, and slightly inferior to the F-35’s 2,200 kilometres. Service ceiling is also relatively comparable, at 20,000 metres for the F-22 and T-50 and over 18,000 metres for the F-35.

There are extensive debates among aviation specialists regarding the relative merits of the three aircraft. These debates are complicated by the lack of reliable information on the characteristics of final versions of various T-50 components, including in such key areas as engines and avionics. At the same time, there is some consensus that the T-50 is more manoeuvrable but less ‘stealthy’ than the F-35 and F-22. Because of this characteristic, the T-50 is expected to be slightly superior to US aircraft in air battles but less successful in attacking ground targets. However, these comparisons are being made based on real data about Western aircraft but only statements regarding the T-50. Given Russian officials’ track record of hiding problems and exaggerating the capabilities of new technology, it is possible, perhaps likely, that the T-50’s performance may not match expectations.

Cooperation with India has stalled

Since 2007, the T-50 project has included a two-seater version designed for the Indian Air Force and commonly known as the FGFA (Fifth Generation Fighter Aircraft). Original plans called for the production of 500 aircraft, with serial production to begin in 2015. Disagreements between the two sides have resulted in serious delays. The Indian side has complained that the aircraft’s engine is underpowered and unreliable, that problems with the airframe reduce the aircraft’s stealth features, that radar and other electronic systems are inadequate, that construction quality is poor, and that as a result of these defects the per unit cost is too high. As a result of these delays, India is expected to receive only three prototypes by 2017.

Procurement plans

Original plans called for the air force to receive 52 T-50 aircraft by 2020 and a total of 250 by 2030. However, officials have announced that due to the deteriorating economy, only twelve of these aircraft will be procured during the next five years. Four planes are expected to be produced during 2015, though these will still be considered prototypes. Therefore, the T-50 will not become a mainstay of the Russian air force in the foreseeable future.

Overall, it is unclear whether the Russian defence industry will be able to produce some of the advanced features on this aircraft, particularly in the areas of stealth technology, avionics and fifth-generation engines. Furthermore, the cost of the aircraft, estimated to be at least 50 million dollars per unit, may make large-scale procurement unaffordable given Russia’s current economic problems.

PAK DA bomber

Development of what is known as the PAK–DA bomber began in 2007. Tupolev won the initial tender to design the new long-range bomber. By 2009, company officials were anticipating that the research and development phase would be complete in 2012, the engineering phase would be finished in 2017 and the Russian air force would have 100 PAK DA aircraft by 2027. Subsequently, there have been debates regarding the need for such a plane and its capabilities. In August 2012, Deputy Prime Minister Dmitry Rogozin stated that any new strategic bomber will need to possess hypersonic technology to avoid falling behind the United States. This idea was later rejected in favor of a subsonic flying wing design with a long range and the ability to carry a heavy payload of weapons.

Long range

Given the lack of a prototype, there is little certainty about the plane’s design features. Experts believe that it is likely to have an initial weight of around 120-130 tons and a range of approximately 12,000 kilometres. Early indications that the two aircraft (T-50 and PAK DA) may also share engines appear to have been rejected in favour of an updated version of the engines found on the Tu-160. Last year, Russian Air Force Commander Lieutenant General Viktor Bondarev said that the miltiary would start receiving the PAK DA in 2023. However, there have been indications that the timeline for developing a new bomber could possibly be pushed back, with some air force officials stating a potential in-service date range for the new plane of 2025 to 2030. The project is currently at the prototype design and construction stage.

CONCLUSION: The requirements of the air force will provide further stimulus to Russia’s defence industry import substitution scheme. As a result of Western sanctions and broken defence cooperation with Ukraine, Russia is embarking on an ambitious programme to make its defence industry self-sufficient within three years. However, increasingly the defence industry may be forced to retrench, returning to old designs and recycling components as it is unable to meet this ambitious target. The high cost of the T-50 fighter will eat into the overall budget, sapping chances for full-spectrum reforms.

And here is the last installment of my three Oxford Analytica briefs on Russian military procurement plans. This one was originally published on October 20, 2014. As with the others (on the Navy and Ground Forces), I have not updated the content, though I have restored some material that was cut from the published version due to space constraints.

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As part of the State Armament Programme (SAP-2020), the Russian Air Force is set to receive a large number of new aircraft and to modernise at least half of those aircraft that are not being replaced. The service is strongest in combat aircraft, while transport and refuelling aircraft remain a weak point. Russia was relatively late in starting to develop unmanned aerial vehicles (UAV), though some progress is now being made in this area. Increases in transport capabilities will increase the mobility of the Russian military, though they will continue to lag well behind those of NATO competitors and will only be sufficient to make part of the Russian military a mobile force capable of rapid response.

Impacts

The next generation of Russian combat aircraft will be broadly comparable to fifth-generation US fighter planes

Russian long-range bombers will continue their recently increased deployment patterns, patrolling near the borders of NATO states

Greater in-air refuelling capabilities will extend bomber ranges but will be insufficient fully to meet all Russian tactical aviation needs

Violations of NATO and other Western airspaces to test response times and radar/intelligence capabilities of host countries will increase

ANALYSIS: Despite the decay of the 1990s and early 2000s, the Russian Air Force remains the second largest in the world. It has approximately 2,500 aircraft in service, 75-80% of which are operational. Since the 2009 reform, the Air Force has been divided among over 60 bases, each of which reports to one of four operational strategic commands. The Russian Army and Navy are undergoing similar rearmament/reform programmes.

Fighters

Throughout the post-Soviet period, Russia’s air combat forces have consisted primarily of six types of aircraft:

The venerable Su-24 strike aircraft was introduced into the Soviet Air Force in 1974. It is gradually being replaced by the Su-34, though approximately 100 remain in service.

The Su-25 close air support aircraft was introduced in 1981; about 150 are in service.

The fourth-generation Su-27 fighter was introduced in 1984; about 350 are in service.

A modernised version of the Su-27, the Su-30 was introduced in 1992; about 45 are in service.

The fourth-generation MiG-29 fighter was introduced in 1983; about 250 are in service.

The MiG-31 interceptor was introduced in 1982; about 130 are in service and operational.

New aircraft have been received as well, primarily 35 Su-35 ‘fourth-plus-plus-generation’ fighters and 46 Su-34 strike aircraft. These planes will remain the primary combat aircraft in the Russian Air Force for the next decade.

Bombers

The current inventory of long-range bombers consists of three types:

The 16 Tu-160 strategic bombers are supersonic long-range bombers designed in the 1980s that have been in limited service since the 1990s. They have a maximum speed of Mach 2 and a range of over 12,000 kilometres (km). They can be armed with either conventional cruise missiles or nuclear missiles.

The 32 operational Tu-95MS strategic bombers are turboprop planes that have been in service since the 1950s, though the version currently in service was built in the 1980s. These have a maximum speed of 920 km/hour and a range of 15,000 km. They are armed with conventional cruise missiles.

The 41 operational Tu-22M3 long-range supersonic bombers, built in 1970s and 1980s, have a maximum speed of 2,000 km/hour and a range of 6,800 km.

Bombers’ resurrection

Russia’s bombers were virtually inactive until 2007, when continuous patrols resumed. Since then, they have averaged 80-100 hours’ flying time per year. Overall, Russia’s existing long-range bombers can be expected to continue to operate for at least the next two decades.

Currently, 4-6 Tu-95s and 2-3 Tu-160s are being modernized each year, primarily including improvements in targeting and navigational systems. Overall, Russia’s existing long range bombers can be expected to continue to operate for at least next two decades, so the air force certainly has time on its side in developing a new design for a next generation long range bomber.

Military transports

The transport aviation branch has been expanded in recent years. In addition to its traditional transport function, it now operates airborne warning and control system (AWACS) planes and is responsible for transporting airborne troops. The mainstay of the existing transport fleet is the Il-76, with approximately 100 operational. These still have 2-3 decades of life, so there is no need for wholesale replacement, especially with a planned modernization that will include new engines and improved electronics. Thirty-nine modernized Il76-MD aircraft are on order. Transport aviation also operates a variety of Ukrainian-built Antonov planes, largely left over from the Soviet days. Plans to replace them with more modern variants have been in flux over recent years and are likely to be canceled given the suspension of military cooperation between Russia and Ukraine.

Transport aviation now operates 18 A-50 AWACS aircraft, including three that have been modernized. In the medium term, the military plans to produce a new generation A-100 AWACS plane based on the Il-76MD body.

Refuelling shortage

The big problem is a severe shortage of refuelling planes, with only 20-25 Il-78 tankers available. Most of these planes are committed to serving long-range aviation, which limits their ability to train with combat and transport aircraft. An additional 40 planes are on order, which will help somewhat to reduce this limitation.

Procurement plans

SAP-2020 contains an ambitious agenda for modernising Russia’s military aircraft, allocating over 4 trillion rubles (130 billion dollars) to re-outfitting the Air Force. The investment would result in the acquisition of more than 600 modern aircraft, including fifth-generation fighters, as well as more than 1,000 helicopters and a range of air defence systems.

Over the last four years, Russia’s aircraft industry has been relatively successful in meeting the targets set by SAP-2020 for combat aircraft. In just the last two years, it has built 28 Su-35S and 34 Su-30 fighters, as well as 20 Su-34 strike aircraft. Future plans call for the production of an additional 13 Su-35S and 83 Su-34 aircraft over the next six years, as well as the start of serial production of the T-50 fifth-generation fighter.

If all plans are carried out, by 2020 Russia will have 50 T-50, 90 Su-35 and over 60 Su-30 fighters, as well as 120 Su-34 strike aircraft. This will allow the Russian Air Force to retire all of its old Su-27 and Su-24 aircraft. Russian analysts believe that 50-55 MiG-35 fighter jets may also be ordered, starting the replacement of aging MiG-29s.

Sukhoi’s T-50 fifth-generation fighter

Russian strike aircraft are of fairly high quality, with the main problems revolving around the age of the air frames rather than their capabilities. Although it is a formidable aircraft, some questions have been raised about the feasibility of the development time-lines for the T-50 and how genuine are the capabilities of its fifth-generation technology. Nevertheless, the Russian military will have a fifth-generation strike fighter in serial production sometime in the next decade.

Ending cooperation with Ukraine

More significant is the revitalisation of less glamorous parts of the aviation industry, especially transport and refuelling aircraft. The construction of new production lines for these types of aircraft will go a long way towards the government’s stated goals of making the Russian military more mobile and extending the range of its attack aircraft through aerial refuelling.

However, gaps in both transport and refuelling capacity will remain a problem well into the next decade, due in part to the end of military cooperation with Ukraine.

UAV development

The military is also likely to benefit from relatively rapid growth in UAV capabilities as new designs reach the production stage. However, Russia’s UAV capabilities are likely to remain well behind those of its Western competitors for the rest of the decade.

CONCLUSION: Future development will focus on a new long-range bomber, which may be capable of hypersonic speeds, with production expected to start around 2020. Serial production of the T-50 fighter jet will continue to expand, with expectations that a total of 250 aircraft of this type will be produced over the next 15 years. Finally, Russian aircraft designers are currently developing a strike UAV that they hope will be ready to enter production by 2020.

The Russian Air Force appears to have turned a corner on procurement, having received 40 new airplanes and 127 new helicopters in the last year. For the first time, the entire aviation procurement plan appears to have been fulfilled. The winged aircraft include 10 Su-34s, 6 Su-35s, 2 Su-30SMs, and over 20 Yak-130s. There’s no detailed breakdown of helicopters, though the bulk are probably Mi-28N and Ka-52s. This is an improvement on 2011, when 31 fixed-wing aircraft and over 50 helicopters were procured. Given that in 2010, the numbers were 23 and 37, respectively, we are seeing a positive trend in procurement of military aviation. It will probably still be tricky for the aircraft industry to reach the stated State Armament Program goal of delivering 1,120 helicopters and 600 fixed-wing aircraft by 2020, but reaching 70 percent of that target by 2020 seems quite doable, with the rest arriving by 2025 at the latest.

Ilya Kramnik has recently analyzed what the recent success in procurement means for the Russian air force. He notes that with the new aircraft, the Russian air force will have greater range, both because of the characteristics of the aircraft themselves and because they will all have the capacity for in-flight refueling. The new aircraft will also increase the air force’s ability to attack targets on the ground, as they will all be capable of using high precision weapons against ground targets. This capability will be augmented by an increase in the procurement of precision-guided munitions in coming years. Kramnik also notes the modernization of education and training for air force pilots, including the acquisition of modern flight simulators and an increase in average flight time to 100 hours per year.

Kramnik notes some remaining problems, including the need to improve infrastructure at air bases and the modernization of critical capabilities for supporting combat aircraft, including refueling, reconnaissance, AWACS, and electronic warfare aircraft. Without such aircraft, even the most modern combat aircraft cannot function effectively. In conclusion, Kramnik advocates the conversion of existing commercial aircraft (such as Il-62 and Il-86 jets currently in storage) into tankers, a process that could be done more quickly than building a sufficient number of new refueling aircraft and could give the air force 30-40 additional tankers by the end of the current decade. He argues that without this type of conversion program, this quantity of tankers could only be reached by the late 2020s, and even then only at the expense of a number of transport and AWACS aircraft. Such a program would allow each air base to have its own detachment of tankers.

All in all, Russia’s military aviation industry is in pretty good shape. Russian strike aircraft are already of fairly high quality, with the main problems revolving around the age of the air frames rather than their capabilities. Sukhoi and Irkut have already shown themselves capable of producing new aircraft in a relatively timely manner. There are some questions concerning the feasibility of the development timelines for the T-50 fifth-generation fighter plane and the extent to which the plane will be equipped with true fifth-generation components, but every country that has sought to develop a fifth-generation fighter plane has run into delays. The essential point that the Russian military will have a fifth-generation strike fighter in serial production sometime in the next decade is beyond doubt. There are, however, questions about the future of MiG, which did not provide any new planes for the Russian air force last year or the year before.

As Kramnik highlights, what’s most needed is the revitalization of less glamorous parts of the aviation industry, especially transport and refueling aircraft. These are areas in which the air force has struggled to maintain capabilities in the post-Soviet period. The construction of new production lines for these types of aircraft will go a long way toward the MOD’s stated goals of making the Russian military more mobile and extending the range of its attack aircraft through aerial refueling. The MOD seems to be cognizant of this need and is going forward with projects to build these types of support aircraft.